Title :
Variable-rate data sampling for low-power microsystems using modified Adams methods
Author :
Irvine, Geoff B. ; Wang, Lei ; Dickman, Peter ; Cumming, David R S
Author_Institution :
Dept. of Electron. & Electr. Eng., Glasgow Univ., UK
Abstract :
A method for variable-rate data sampling is proposed for the purpose of low-power data acquisition in a small footprint microsystem. The procedure enables energy saving by utilizing dynamic power management techniques and is based on the Adams-Bashforth and Adams-Moulton multistep predictor-corrector methods for ordinary differential equations. Newton-Gregory backward difference interpolation formulae and past value substitution are used to facilitate sample rate changes. It is necessary to store only 2m+1 equispaced past values of t and the corresponding values of y, where y=g(t), and m is the number of steps in the Adams methods. For the purposes of demonstrating the technique, fourth-order methods are used, but it is possible to use higher orders to improve accuracy if required.
Keywords :
data acquisition; differential equations; energy conservation; interpolation; microsensors; signal sampling; Adams-Bashforth method; Adams-Moulton method; Newton-Gregory backward difference interpolation formulae; Newton-Gregory interpolation formulae; digital signal processing; dynamic power management; low-power data acquisition; low-power microsystems; modified Adams methods; multistep predictor-corrector; ordinary differential equations; past value substitution; remote sensing devices; variable-rate data sampling; Base stations; Councils; Data acquisition; Differential equations; Digital signal processing; Energy management; Frequency; Interpolation; Remote sensing; Sampling methods;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2003.819004
